1 / 16

NAJRAN UNIVERSITY College of Medicine

NAJRAN UNIVERSITY College of Medicine. Microbiology &Immunology Course Lecture No. 4. By. Dr. Ahmed Morad Asaad Associate Professor of Microbiology. Bacterial physiology and metabolism Bacteria have certain requirements In order to grow and multiply. These requirements include:

jock
Télécharger la présentation

NAJRAN UNIVERSITY College of Medicine

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. NAJRAN UNIVERSITY College of Medicine Microbiology &Immunology Course Lecture No. 4 By Dr. Ahmed MoradAsaad Associate Professor of Microbiology

  2. Bacterial physiology and metabolism Bacteria have certain requirements In order to grow and multiply. These requirements include: 1- Nutrients 2- O2 requirement 3- CO2 requirement 4- Suitable Temperature 5- Suitable pH

  3. Nutrients According to nutrients, bacteria are classified into:

  4. O2 requirement According to O2 requirement, bacteria are classified into 4 types:

  5. What is the difference between obligate aerobic and obligate anaerobic bacteria? • In aerobic bacteria, O2 is utilized as the final oxidizing agent. • 2 H2O + 2 O2 → 2 H2O2 + O‑2 (Toxic substances) • Aerobes and facultative anaerobes contain certain enzymes, e.g. superoxide dismutase, catalase and peroxidase, which protect them from the effect of these toxic materials. • Anaerobic organisms do not possess these protective enzymes and the presence of O2 will be harmful to them due to the production of those toxic materials. • Thus in anaerobic bacteria, the oxidizing agent is not O2 but other inorganic or organic compounds.

  6. CO2 requirement • ‑ Most bacteria require CO2 in just as a small concentration as that present in air. • ‑ Carboxyphilic bacteria need high CO2 concentrations., e.g. • Neisseria: requires 5% CO2. • Brucellaabortus: requires 20% CO2.

  7. Temperature requirement According to temperature, bacteria are classified into: What is the type of bacteria of medical importance in relation to temperature?

  8. pH requirement • ‑Most bacteria of medical importance can grow and multiply within a pH range of 7.2 ‑ 7.6. • ‑Some bacterial species require: • Acidic pH for their maximal growth (e.g. lactobacilli). • Alkaline pH (e.g. Vibrios).

  9. Bacterial growth curve When bacteria are transferred to a suitable fluid medium and the number of viable bacterial/ml is calculated at regular time intervals, a growth curve will be obtained which can be divided into 4 phases:

  10. 1- The lag phase : ‑ During this phase, there is no or little bacterial multiplication. - It is the period between inoculation of the medium with the organism and beginning of active multiplication. ‑ In this phase the organism adapts itself to the new environment by synthesizing new enzymes and macromolecules required for metabolism.

  11. 2- The logarithmic (exponential) phase : • - It is the most active phase of bacterial growth. • - The number of bacteria increases steadily by time. • - This phase continues until : • The available nutrients are exhausted, and/or • The toxic waste products are accumulated.

  12. 3- The stationary phase : • -During this phase the rate of bacterial growth is slow due to exhaustion of nutrients and accumulation of waste metabolites. • -The number of dying bacteria = the number of newly formed bacteria.

  13. 4- The phase of decline : -When exhaustion of nutrients and accumulation of waste products continue, the number of dying bacteria exceeds the number of newly formed bacteria.

  14. Clinical significance of bacterial growth curve:

More Related